Be us to create fully personaliz bioimplants using three-dimensional (3D) bioprinting. As a basis, CT or MRI data of the defect area are taken. It is expect that such biogels will appear by the end of 2023 and will become a new major step in the development of bioprinting technology and regenerative micine in general. If such a biogel is combin with living cells, for example, stem cells obtain from adipose tissue or bone marrow, then “bioink” is obtain. In the near future, 3D printers will be us to print bone, cartilage tissue and skin for of the musculoskeletal system, as well as severe and widespread skin injuries (for example, burns.
The treatment of a number of diseases
Andrey Nikolaenko As technology develops, it will be France Mobile Number List possible to print not only tissues, but entire organs on a 3D printer. Of course, this is not a quick process, and while a “3D print heart” sounds like science fiction, but in 50 years it will be quite real. Moreover, over time, the cost of this process will decrease and will be more widely available, 3D bioprinting of tissues and organs will be able to replace donation. In this way, it will be possible to solve the problem of a shortage of donor organs, as well as the complete biocompatibility of the implant with the patient’s body. Difficulties of implementation.
The solutions mention above are no longer
The main difficulty of bioengineering lies in the introduction of new technologies directly into mical practice. It is difficult to register individual USA CFO titanium endoprostheses, since they themselves are not subject to registration, but the material is. But there is no legislation for bioimplants as such. Now the main law that regulates the field of bioengineering is the “Law on Transplantation of Human Organs and (or) Tissues” of 1992 and relat by-laws. However, as such, tissues or organs. These are mical products that are similar to fabrics in their properties.